Materials for Facilitating Administration of Dimethyl Sulfoxide (Dmso) and Related Compounds

ABSTRACT

The invention relates generally to materials for facilitating the administration of dimethyl sulfoxide (DMSO) and related compounds. In one embodiment, the invention comprises a kit comprising items used for the safe and effective administration of DMSO. In another embodiment, the invention relates to indicating containers for holding or delivering DMSO.

RELATED APPLICATIONS

This application claims priority to U.S. Provisional Application Ser.Nos. 60/716,265 and 60/716,368, both of which were filed Sep. 12, 2005,and are herein incorporated by reference.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The invention relates generally to materials for facilitating theadministration of dimethyl sulfoxide (DMSO) and related compounds. Inone embodiment, the invention comprises a kit comprising some or all ofthe items desired for the safe and effective administration of DMSO tomedical patients in a hospital, ambulance, EMT or other environment. Inanother embodiment, the invention relates to polymeric materials used toconstruct devices, such as indicating containers, that facilitate DMSOadministration.

2. Description of the Related Art

With the greatly increased use and anticipated use of DMSO in medicaltreatments for serious injuries and illness, technology that facilitatesthe administration of DMSO is becoming increasingly important. AlthoughDMSO has several uses as a medicament, many clinicians are reluctant toadminister DMSO to their patients because of the difficulty inadministering DMSO. Not only does the metabolism of DMSO produce noxiousodors, but DMSO is a member of the subset of chemical compounds known as“super solvents” because few polymers are insoluble in DMSO. Becausemost compounds dissolve in DMSO, containers for holding or deliveringDMSO in a manner that does not cause leaching of (or chemical reactionswith) DMSO are not readily available.

The IV tubing most commonly used today in hospitals is plasticized PVC(polyvinyl chloride) wherein both the PVC and the plasticizers arereadily dissolved by DMSO. Substitutes for PVC and its plasticizers thathave been incorporated in the recent art also are a cancer and otherserious health risk and will dissolve in DMSO. Examples of DMSO solublechemicals include PVC and its plasticizers DEHP and TOTM, acrylics,styrenes, polyamides, urethanes and silicones. The danger of DMSO in usewith common polymers poses serious risk. Not only will common polymersbe degraded by DMSO such that perforations will cause ineffectivecontainment of DMSO, but the degradation or reaction with DMSO ofcertain polymers can result in toxic by-products.

Polyolefins such as polybutylene, polypropylene, polyethylene, and theircopolymers are insoluble in DMSO, but tubing formed from these materialsis known to kink and crack too easily for use in IV systems. Similarly,bags made of these materials are difficult to form and may not withstandsevere handling. An additional complication is the known fact that fewpolymers bond to polyolefins.

Likewise, although medical kits and IV kits are routinely used inambulatory and hospital settings, Applicant believes that no such kitsare available that address the specific safety and handling requirementsof DMSO. As DMSO becomes a much more routine drug of choice for thetreatment of seriously ill or injured patients, the success of thesetreatment methods will require immediate access to all of the particularitems necessitated by the presence of DMSO and related compounds.Patient treatment items must be immediately available in sterilecondition. These items are simply hot currently available in ordinaryhospital, ambulance, EMT or medical practice.

SUMMARY OF THE INVENTION

Preferred embodiments of the invention relate to materials to facilitatethe administration of DMSO and associated compounds.

Several embodiments of the present invention relate to a materialdesigned to withstand exposure to DMSO and associated compounds. In oneembodiment, the invention comprise a container for holding ortransporting DMSO and/or associated compounds. The term “container” asused herein shall be given its ordinary meaning and shall includecarriers, holders, enclosures, and conduits for containing, holding,administering, delivering, or transporting materials such as DMSO andassociated compounds.

The phrases “DMSO associated compounds”, “associated compounds”, orrelated compounds as used herein shall be given their ordinary meaningand shall include degradation compounds, derivatives, precursors, andmetabolites of DMSO, such as methylsulfonylmethane (MSM or DMSO₂) anddimetlhyl sulfide or methylthiomethane (DMS).

The phrase “DMSO container” as used herein shall be given its ordinarymeaning and shall include containers that are adapted to contain DMSOand associated compounds.

The term “kit” as used herein shall be given its ordinary meaning andshall also mean a system, grouping, and collection of materials providedfor a common goal.

In one embodiment, the invention comprises a device for facilitatingadministration of DMSO. The device comprises a container for holding ordelivering DMSO wherein the container comprises an inner layer, an outerlayer, and an intermediate layer. The inner layer comprises a materialthat is insoluble in DMSO. The inner layer may also be impervious tofluids. The intermediate layer comprises a material that contacts theinner layer and outer layer. The outer layer is resistant to abrasion.The container may be an IV bag, tubing, a syringe, or a catheter.

In one embodiment of the invention, the DMSO container comprises asingle or multilayer material for safely and effectively containingDMSO. In one embodiment, the material is polymeric.

In one embodiment, the inner layer of the container comprises a materialthat will not dissolve in DMSO or related compounds. Thus, in someembodiments, the inner layer will be able to endure exposure to DMSO(for minutes, hours, days, months, or longer) without changing thechemical or physical nature of the container. In one embodiment, theinner layer of the container is insoluble, inert, and/or non-reactivewith DMSO. The inner layer may comprise a homophase copolymer ofpropylene.

In one embodiment, the outer layer comprises a thermoplastic polymer,and is resistant to abrasion.

In one embodiment, the intermediate layer comprises a binding layer forbinding the inner layer and said outer layer. The intermediate layer maycomprises a polyamide film that bonds said inner layer and said outerlayer. The intermediate layer may comprise a 9 through13-aminoundecanoic acid polyamide. The intermediate layer may comprise apolyolefin.

In another embodiment, the invention comprises a DMSO container and anindicator to indicate that DMSO has leached through one or more layersof the container. The indicator may be on the inside or outside of thecontainer. The indicator may be integral with the container, coupled tothe container, or a separate component. The indicator may be located onor within the inner layer. The indicator may be located on the outsideof the inner layer, or in between the inner layer and the intermediatelayer. The indicator may be located in between the intermediate layerand the outer layer.

In one embodiment, the indicator comprises a visual indicator orcolorant that changes color if DMSO leaches out of the inner layer. Thecolorant may warn of commingling of the layers during manufacturing, amanufacturing failure that could result in the intermediate layer beingexposed to DMSO and leaching into the IV solution. In one embodiment, atleast one portion of the container is transparent so as to visuallyindicate a color change. The indicator may comprise a compound, such asa chemical compound, that reacts or changes color upon exposure to DMSO,and is thereby adapted to signal escape of DMSO from the inner layer (oranother layer) of said container. The indicator may comprises a compoundthat changes light transmission upon exposure to DMSO, and is therebyadapted to signal escape of DMSO from the inner layer of said container.

In a further embodiment, the invention comprises making a containeraccording to any one of the embodiments described herein. In oneembodiment, the material for the container is made by co-extrusion.

Several embodiments of the present invention relate to a medical supplykit assembled for the purpose of making the necessary items available tomedical personnel administering DMSO and related compounds to medicalpatients in hospital, ambulance, or EMT conditions. In one embodiment,the invention comprises all of the specific items required for theadministration of DMSO. Several embodiments of the invention comprisekits to make the administration of DMSO and its associated compounds asefficient, effective and safe as possible.

In one embodiment, the invention comprises a kit comprising one or moreof the containers according to any one of the embodiments describedherein. In one embodiment, the kit further comprises one or more of thefollowing: instructions for use; a DMSO resistant stainless steel IVneedle; a DMSO resistant IV catheter; a syringe; and DMSO. The kit mayalso contain other components, as described below.

In one embodiment, the kit comprises a detector for detecting thepresence of DMSO or related compound. The kit may also include adsorbantmaterial for adsorbing the noxious odors associated with DMSOmetabolism. The adsorbant material, includes, but is not limited to,caps, gowns, scrubs, and linens.

In another embodiment, the kit comprises at least one adsorbentdepletion indicating cartridge for a respiratory ventilator exhaust tocapture the metabolites of DMSO passing from the respiration of thepatient.

In yet another embodiment, the kit comprises at least one pair ofprotective caregiver gloves constructed of a suitable hypoallergenicrubberized material including modified or unmodified structures ofsingular polyolefins and/or combinations of polyolefins or the extrudedmultilayer film as for the IV bag or IV tubing.

In one embodiment, the invention comprises a method for facilitating theadministration of dimethyl sulfoxide (DMSO) or related compounds to arecipient. In one embodiment, the method comprises providing a device orcontainer according to any one of the embodiments described herein. Themethod may also include providing dimethyl sulfoxide (DMSO) or a relatedcompound. Additionally, a kit or kit components may be provided, alongwith instructions for use.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

Embodiments of the present invention will be described as it applies tocertain preferred embodiments. It is not intended that the presentinvention be limited to the described embodiment. It is intended thatthe invention cover all modifications and alternatives which may beincluded within the spirit and scope of the invention.

Preferred embodiments of the present invention comprise materials anddevices to facilitate handling or administration of DMSO and associatedcompounds, and methods of making and using same.

In one embodiment, the invention comprises IV bags, tubing, and othercarriers, containers, and conduits for DMSO and associated compounds.

In another embodiment, the invention comprises kits for the delivery andadministration of DMSO and associated compounds.

Carriers, Containers, And Conduits For DMSO And Associated Compounds

In one embodiment, the invention comprises a container (includingcarriers and conduits such as IV bags and tubing) for holding ortransporting DMSO and/or associated compounds. In one embodiment, theDMSO container comprises a plurality of layers.

In one embodiment, the DMSO container comprises three layers: at leastone inner, fluid resistant, layer; at least one binding layer; and atleast one outer, protective, layer.

In one embodiment, the first layer comprises a DMSO resistant homophasecopolymer of propylene, wherein the polypropylene is a known materialand is appreciated in many fields. In one embodiment, the first layer iscapable of withstanding concentrations of DMSO of a trace to as much as100% at temperatures up to the melting point in the range of about 110to 160 degrees C. In one embodiment, heterophase polymers that are DMSOresistant may be used.

In one embodiment, the first layer comprises a homophase copolymer ofpropylene that contains from about 1% to 50% by weight of polyethyleneand can be employed to particular advantage in the bonding of thelayers.

In one embodiment, the intermediate binding layer may comprises suitablepolyolefin binders. In another embodiment, the intermediate layercomprises at least one binding polymer. The binding polymer includes,but is not limited to, 13-aminoundecanoic acid, 12-aminoundecanoic acid,11-aminoundecanoic acid, 10-aminoundecanoic acid, and 9-aminoundecanoicacid polyamide films. In one embodiment, the intermediate binding layermay comprise a transparent visual indicator or other indicator, or acombination of two or more indicators. The indicator that may be coupledto the intermediate layer may be in addition to, in instead of, theindicator that is coupled to the inner layer.

In one embodiment, the outer, protective, layer of the container (suchas tubing and bags) comprises a polymer. In one embodiment, the outerlayer comprises a tough, abuse-resistant thermoplastic polymersincluding, but not limited to, polyvinylidene chloride (PVDC) orethylene vinyl alcohol (EVOH), or other polyamides.

In one embodiment, the outer layer is resistant to abrasion. Sealantsmay be used instead of or in addition to the outer layer. An indicatormay be part of, coupled to, or integral with the outer layer.

In one embodiment, the container comprises one or more indicators. Theindicator will indicate or signal the escape of DMSO or associatedcompounds from the inner layer. In one embodiment, a visually indicatingtransparent colorant is included as an integral part of the homophasecopolymer of the inner layer. Such transparent visual indicator (orother type of indicator) warns of commingling of the inner andintermediate layers during manufacture subjecting the DMSO solubleintermediate layer to the possibility of leaching into the IV solution.This becomes a significant quality control point for the productsmanufactured utilizing this method. This transparent color indicatoralso provides immediate identification by the caregiver of materialssuitable for use with DMSO. An example of potential indictors would be agold fleck completely immune to interaction with DMSO and associatedcompounds. Other indicators may be used as well. One advantage of anindicator according to some embodiments is that the indicator willpromptly signal when DMSO or an associated compound has escaped from asafe layer (a layer that will not dissolve in DMSO) to a layer that isreactive or soluble with DMSO.

In one embodiment, the indicator comprises a light transmission changingindicator, such as a coating. In one embodiment, a plurality ofmicroparticles may be dispersed between the layers of the container. Areagent formulated to change color and/or light transmission in responseto the presence of moisture and/or DMSO in said matrix may be providedto indicate that DMSO and/or an associated compound has escaped theinner layer.

Some indicators may be sensitive to the chemical structure of DMSOand/or associated compounds. Some indicators may be sensitive tomoisture content, while other indicators may signal the presence ofgaseous molecules or frames.

In one embodiment, indicators which change from translucent to clear areprovided. Such indicators include, but are not limited to, metalchlorides, metal fluorides, metal hydroxides, metal carbonates, andmetal nitrates. In one embodiment, alkali metal chlorides, alkalineearth metal chlorides or transition metal chlorides are used asindicators. These may be selected from the group alkali metal ozonide,lithium chloride, sodium hydroxide, potassium fluoride, potassiumcarbonate, potassium nitrate, magnesium chloride, stannous chloride,strontium chloride, aluminum chloride, calcium chloride, zinc chloride,calcium nitrate, sodium nitrate, ammonium chloride and ammonium nitrate.In some embodiments, these indicators will turn clear upon contact withmoisture. In some embodiments, the presence of DMSO will increase therate or intensity at which the indicators turn clear.

In one embodiment, a color changing indicating layer is provided. Theindicator layer. The indicator layer of the container (which may be anadditional layer or integral with the inner, intermediate, or outerlayer) may comprise DMSO-absorptive or hygroscopic plastic such ascellulose acetate, cellulose acetate butyrate or a nylon, such as Nylon408, and optionally, a fluid such as water. A cobalt salt is applied to,coupled with, or integral with the surface of the layer to provide aportion of the container characterized by a specific color in theabsence of moisture and color change in the presence of moisture.Examples of cobalt salts which can be used include cobaltous chlorideand cobaltous bromide. Various hygroscopic modifiers may also be addedto enhance the moisture-grabbing properties of the hygroscopic plastic.Two of these hygroscopic modifiers include zinc chloride and calciumchloride. The quantity of hygroscopic modifiers hygroscopic may bevaried to effect the moisture range to which the indicator is sensitive.In one embodiment, the change in color of a cobalt salt when moisture isintroduced will be distinctive. For example, the color of cobaltouschloride is normally bluish when in a dry state but the color rapidlychanges to a pinkish hue as moisture is absorbed by the hygroscopicplastic base. Likewise, the dry color of cobaltous bromide is greenishand the color changes to a yellowish hue as moisture is introduced. Toobtain a desired initial or dry color, the aforementioned salts may bemixed.

In one embodiment, the indicator comprises a light transmission changinglayer. The indicator layer of the container (which may be an additionallayer or integral with the inner, intermediate, or outer layer) maycomprise a DMSO-absolptive plastic such as cellulose acetate, celluloseacetate butyrate or a nylon, such as Nylon 408, and optionally, a fluidsuch as water. Particularly with the presence of DMSO, these materialswould quickly turn from clear to cloudy or from transparent totranslucent. Thus, in one embodiment, a cloudy or translucent appearancecould be visually observed by a user. Alternatively, a light may bepassed through the layer to detect cloudiness or translucency.

In one embodiment, a tubing expressly used to convey an IV solutionbearing from a trace to as much as 100% DMSO, but preferentially in therange of 5 to 30% DMSO and/or associated compounds, is provided.

In another embodiment, a weldable bag to be used to store and dispensean IV solution bearing from a trace to as much as 100% DMSO, butpreferentially in the range of 5 to 30% DMSO and/or associated compoundsis provided.

In yet another embodiment, an easily inspectable device clearlyindicating its suitability for use in DMSO bearing IV solutions isprovided.

In a further embodiment, delivery of DMSO or DMSO related compounds forthe prevention or treatment of illnesses is provided. In a preferredembodiment of the device, treatment of severe head injury, spinal chordinjury, stroke or other neuropreventative/neurotherapeutic treatments isprovided.

The inner layer, intermediate layer, and outer layer may have aindividual or total thickness of about 0.0001 microns to about 10 cm. Inone embodiment, each layer is about 0.0003 microns to about 4 cm thick.In one embodiment, the inner layer is about 1 mm to about 1 cm thick,the intermediate layer is about 1 mm to about 1 cm thick, and the outerlayer is about 0.1 mm to about 1 cm thick. The thickness of each layerwill depend on whether the container is an IV bag, tubing, a catheter,or a syringe. In some embodiments, the container comprises only onelayer. In other embodiments, the container comprises more than threelayers. In one embodiment, a layer may simply be a coating or dusting ofparticles.

In some embodiments, the containers will comprises features that aresuited for the particular use of that container. Such features may bedetermined based on testing criteria. Testing criteria may be selectedfrom a variety of testing methods. These may be similar to thatdescribed in U.S. Pat. No. 5,998,019, herein incorporated by reference.For example, a container may have specific properties that relate toautoclavability, low temperature ductility, mechanical modulus andrecovery, RF processibility, optical clarity, strain whitening,environmental compatibility, and solution compatibility.

In several embodiments, the material selected for the construction ofthe container is based on the ability of the material to seal or close.

In other embodiments, the material selected for the construction of thecontainer is based on compatibility with DMSO and other fluids, as forexample, described in U.S. Pat. No. 5,998,019, herein incorporated byreference.

Kits For The Delivery And Administration of DMSO And AssociatedCompounds

In several embodiments, the present invention comprises a kit thatfacilitates the administration of DMSO and associated compounds. In oneembodiment, the kit comprises several parts which are selected to beinclusive of all items needed for the procedure and to provide thefeatures, resistance, and/or absorbency required by the special natureof DMSO and associated compounds.

In one embodiment, the kit comprises at least one container thatcomprises one of the layers described herein. The container included inthe kit may be an IV bag, tubing, catheter, syringe, etc.

The list of materials for the DMSO IV kits may include, but is notlimited to, the following components and may be divided as shown or inother ways as needed by the medical teams:

1. Patient Treatment Kit (Sterile Items):

In one embodiment, a surgical treatment kit or therapeutic treatment kitfor treating patients with DMSO or DMSO compounds is provided. In oneembodiment, the kit is specifically resistant to DMSO or DMSO compoundand comprises one or more (and preferably, two or more) of thefollowing:

a. Instructions for the procedure which may printed in fonts sized to beseen from across the room on large format E sized drawing paper. Eachstep is illustrated as well as described in detail. The instructions maybe printed on the packaging material.

b. A full set of DMSO resistant Stainless Steel IV needles sized 16, 18,19, 20, 21, 22 and 23 gauges. Said needles may be encased in moistureresistant packaging and accompanied by a corrosion inhibiting desiccantpad. A partial set or single needle can be included instead of the fullset.

c. A full set of DMSO resistant IV Catheters sized to match the needles:16, 18, 19, 20, 21, 22 and 23 gauges. A partial set or single cathetercan be included instead of the full set.

d. Syringes in 10 ml, 20 ml and/or 50 ml sizes for the use of themedical professional should additional medicants be required in the IV.

e. The IV solution including DMSO in concentrations of about 1 volumepercent through about 40 volume percent where the preferredconcentration is about 28 volume percent. Additional compoundsassociated with DMSO IVs may be included. Concentrations less than 1%and higher than 40% may be provided in certain embodiments.

f. IV Bag or other container for the purpose of containing the abovesolution. Such bag may be marked with multiple linear scales includingmilliliters, DMSO dosage, and patient body weight. Included affixed tosubject bag is a septum suitable for receiving additional medicamentapplied through use of the above syringes. The materials of constructionfor the subject bag comprise a multilayer film with the solutioncontacting liner completely resistant to DMSO and related compounds, anintermediate bonding layer and an outer abrasion resistant layer.

g. One or more containers that is manufactured by co-extrusion as amultilayer film with the solution contacting liner completely resistantto DMSO and related compounds, an intermediate bonding layer and anouter abrasion resistant layer.

h. Multiple tubing lengths and connectors and Y connectors to be usedfor special applications.

i. ‘Hoffmann’ style tubing clamps sized and uniquely structurallydesigned to match the durometer and diameter DMSO resistant tubing inthe other parts of the kit.

j. Tape with a base paper or fabric and an adhesive selected to beresistant to the metabolites of DMSO and in particular to DMS (dimethylsulfide) and to avoid all allergic combinations with DMS and associatedcompounds. Such tape to be used for affixing the tubing and catheterassembly to the patient and for applying a bandage to the needlepuncture area.

k. Betadyne or equivalent sponges and alcohol wipes or otherhypoallergenic non-DMSO or DMS or DMSO metabolite reacting preparatoryfluid for the injection area of the patient.

1. A single use hypoallergenic elastic tourniquet suitable for shortterm exposure to DMS and the other metabolites of DMSO.

2. Patient Care Kit (Non-Sterile Items)

A kit for providing odor control, chemical monitoring and safetyequipment for use in treating patients with DMSO or related compounds(such as DMS) is provided. In a preferred embodiment, the kit comprisesone or more of the following:

a. A suitable number of DMSO or related compounds (e.g., DMS) sensitiveand indicating patches to pin or clip to the caregiver's clothing forthe purpose of detecting and flagging for the caregiver the exposurelevel to DMS and related compounds.

b. A suitable number of DMSO or related compounds (e.g., DMS) adsorbentsurgical style masks for the use of the caregivers to isolate them forthe noxious odors of DMS and of the other metabolites of DMSO andassociated compounds.

c. The kit may or may not also include protective caregiver caps, gowns,scrubs, and other specially treated adsorbent items to adsorb thenoxious patient body odors of DMS and of the other metabolites of DMSO.

d. A DMSO or related compounds (e.g., DMS) and odor adsorbent PatientQuilt to adsorb the noxious patient body odors of DMS and of the othermetabolites of DMSO and associated compounds.

e. A DMSO or related compounds (e.g., DMS) or odor adsorbent PatientGown to adsorb the noxious patient body odors of DMS and of the othermetabolites of DMSO and associated compounds.

f. An adsorbent depletion indicating cartridge for a respiratoryventilator exhaust to capture the metabolites of DMSO passing from therespiration of the patient.

g. Protective caregiver gloves constructed of a suitable hypoallergenicrubberized material including modified or unmodified structures ofsingular polyolefins and/or combinations of polyolefins or the extrudedmultilayer film as for the IV bag or IV tubing.

h. A suitable number of pairs of safety eyeglasses for the protection ofthe caregivers from exposure to the IV solution and bodily fluidsassociated with the procedure.

i. Hypoallergenic pure cotton balls and swabs for use for absorbing IVand bodily fluids associated with the procedure.

j. Additional protective and safety items as needed.

3. Sterile Venous Cut Down Kit

A venous cut down kit may or may not also be included for the purpose ofimmediately treating a patient where needle entry to the veins isprevented for any reason. Such a sub-kit may include one or more offollowing:

a. Scalpel

b. Hemostats

c. Forceps

d. Scissors

e. Sutures

A Portable Enclosure for the kits is also provided. In one embodiment,the enclosure may be a segmented hard or soft sided case organized insuch a way that each item is arranged in the order of use and is readilyaccessible for selection by the caregiver. Such case is preferentiallycapable of being opened for display of all items. Individual kit itemsare clearly marked and identified so as to eliminate as much as possibleany question related to the procedure. In one embodiment, the enclosuremay comprise a molded or otherwise formed segmented or non-segmentedbase covered by an easily removable Tyvek® (E. I. Du Pont De Nemours AndCompany Corporation) or equivalent sheet.

EXAMPLES

The following examples describe non-limiting uses of the materialsdescribed herein.

A kit for treating a patient with severe closed head trauma is provided.The time between injury and treatment is extremely short where anysuccess is desired in relieving patient symptoms. In a preferredembodiment, the medical staff would open the kit, fully exposing thecontents; display the instructions for all to view and internalize, andproceed stepwise to complete the prescribed medical procedure.

A kit for treating a patient who may have suffered a stroke is provided.While often stroke may be difficult to diagnose, as soon as thediagnoses is clear, the caregivers must proceed immediately with theprocedure. In a preferred embodiment, the medical staff would open thekit, fully exposing the contents; display the instructions for all toview and internalize, and proceed stepwise to complete the prescribedmedical procedure.

Kits for the neuropreventative or neurotherapeutic treatment of patientsdiagnosed with, but not limited to, any of the following conditions areprovided:

1. Head trauma

2. Stroke

3. Spinal cord

4. Organ Infarction

5. Dimentia

6. Alzheimers

7. CABG

8. Coronary Artery Disease

Kits for treatment using DMSO or DMSO related compounds to be applied ator in (but not limited to) one or more of the following environments areprovided:

1. Ambulance

2. Hospital

3. Clinic

4. Medical office

5. Home

6. School

7. Sports stadium

8. Work place

9. Police station

Kits for treatment using DMSO to be applied in connection with (but notlimited to) the following:

1. Neuroprotective

2. Neurotherapeutic

In a preferred embodiment, three kits would be provided for treatment ofa patient with DMSO or DMSO related compounds. The first sterile kit,would be housed in a molded or injection formed plastic tray with aTyvek® (E. I. Du Pont De Nemours And Company Corporation) lid, printedwith instructions. The kit would include a 16 and 18 gauge angiocatherswith Hoffmann clamps, an IV solution including DMSO in concentrations of28 volume percent, betadyne or alcohol wipes and elastic tourniquet. Thesecond kit would include non-sterile patient care items of items listedas 2 a, b, d, f, and g. The third kit would be a Venous cut down kit.

It will be understood by those of skill in the art that numerous andvarious modifications can be made without departing from the spirit ofthe present invention. Therefore, it should be clearly understood thatthe forms of the present invention are illustrative only and are notintended to limit the scope of the present invention.

1. A device for facilitating administration of dimethyl sulfoxide(DMSO), comprising: a container for holding or delivering dimethylsulfoxide (DMSO), wherein said container comprises an inner layer, anouter layer, and an intermediate layer; wherein said inner layercomprises a material that is insoluble in dimethyl sulfoxide (DMSO);wherein said intermediate layer comprises a material that contacts saidinner layer and said outer layer; and wherein said outer layer isresistant to abrasion.
 2. The device of claim 1, wherein the devicecomprises an indicator that indicates that dimethyl sulfoxide (DMSO) hasescaped from the inner layer.
 3. The device of claim 2, wherein theindicator is located on, within, or on an outer portion the inner layer.4. The device of claim 2, wherein the indicator comprises a compoundthat changes color upon exposure to dimethyl sulfoxide (DMSO), and isthereby adapted to signal escape of dimethyl sulfoxide (DMSO) from theinner layer of said container.
 5. The device of claim 2, wherein theindicator comprises a compound that changes light transmission uponexposure to dimethyl sulfoxide (DMSO), and is thereby adapted to signalescape of dimethyl sulfoxide (DMSO) from the inner layer of saidcontainer.
 6. The device of claim 2, wherein the container comprises anIV bag, tubing, a syringe, or a catheter.
 7. The device of claim 2,wherein the inner layer comprises a homophase copolymer of propylene. 8.The device of claim 2, wherein the intermediate layer comprises abinding layer for binding said inner layer and said outer layer.
 9. Thedevice of claim 2, wherein the intermediate layer comprises a polyamidefilm that bonds said inner layer and said outer layer.
 10. The device ofclaim 2, wherein the intermediate layer comprises a 9 through13-aminoundecanoic acid polyamide.
 11. The device of claim 2, whereinthe intermediate layer comprises a polyolefin.
 12. The device of claim2, wherein the outer layer comprises a thermoplastic polymer.
 13. Adevice of claim 2, wherein said device is prepared by co-extrusion. 14.(canceled)
 15. A kit comprising: a. Instructions for use; b. At leastone dimethyl sulfoxide (DMSO) resistant Stainless Steel IV needle; c. Atleast one dimethyl sulfoxide (DMSO) resistant IV Catheter; d. At leastone dimethyl sulfoxide (DMSO) syringe; e. DMSO; and f. the device ofclaim
 1. 16. The kit of claim 15, wherein said kit further comprisesadsorbant material for adsorbing the noxious odors associated withdimethyl sulfoxide (DMSO) metabolism.
 17. The kit of claim 16, whereinsaid adsorbant material is selected from the group consisting of one ormore of the following: caps, gowns, scrubs, and linens.
 18. A method forfacilitating the administration of dimethyl sulfoxide (DMSO) or relatedcompounds to a recipient, comprising: providing a device according toclaim 1; and providing dimethyl sulfoxide (DMSO) or a related compound.